Instantaneous Microwave Frequency Measurement Using Photonic Technique

Author

Zhou, Junqiang ; Fu, Songnian ; Aditya, Sheel ; Shum, Perry Ping ; Lin, Chinlon

Author_Institution

Network Technol. Res. Centre, Nanyang Technol. Univ., Singapore, Singapore

Volume

21

Issue

15

fYear

2009

Firstpage

1069

Lastpage

1071

Abstract

We propose a novel photonic technique for measuring microwave frequency instantaneously over a wide bandwidth. In our approach, an optical carrier is divided into two parts. Both parts are modulated by an unknown microwave signal; one part is phase modulated while the other one is intensity modulated. The two differently modulated optical signals are then launched into single-mode fibers with the same lengths to introduce microwave signal power fading. After photodetection, the radio-frequency powers of the two parts are used to generate an amplitude comparison function which provides a frequency-to-power mapping. The proposed scheme is simple and is experimentally verified over a frequency range of 13.5 GHz with a measurement error less than plusmn0.3 GHz.

Keywords

frequency measurement; intensity modulation; microwave measurement; microwave photonics; optical modulation; phase modulation; photodetectors; frequency 13.5 GHz; frequency-to-power mapping; intensity modulation; measurement error; microwave frequency measurement; microwave photonic technique; microwave signal power fading; modulated optical signal; optical carrier modulation; phase modulation; photodetection; radio-frequency power; single-mode fiber; Bandwidth; Fading; Frequency measurement; Intensity modulation; Microwave frequencies; Microwave measurements; Optical modulation; Phase modulation; Power generation; Radio frequency; Amplitude comparison function (ACF); chromatic dispersion (CD); frequency measurement; microwave photonics;

fLanguage

English

Journal_Title

Photonics Technology Letters, IEEE

Publisher

ieee

ISSN

1041-1135

Type

jour

DOI

10.1109/LPT.2009.2022637

Filename

5165108